JP2009504081A - Wireless communication device with ranging function - Google Patents

Abstract

The wireless communication device (10) comprises a distance meter (14) and obtains a distance measurement value via the distance meter (14) for processing by the device (10). Such processing includes, for example, storing distance measurement information, outputting the distance measurement information on the display screen (44) of the wireless communication device (10), and transmitting the distance information to the wireless communication network (36). Alternatively, a step of outputting a dial tone, a pulse, or a vibration according to the distance measurement information may be included. The wireless communication device (10) can also include a camera (50), and the distance meter (14) captures distance information about the subject imaged by the camera (50). And the position may be set together.

Description

  The present invention relates generally to wireless communication devices such as cellular radiotelephones, and more particularly to the incorporation of ranging functions within such devices.

  Wireless communication devices have historically provided only basic communication functions. Sometimes these basic communication functions were even very limited. The limited battery performance and the lack of inexpensive user interface elements (graphic displays, satisfactory audio components, etc.) represent some of the underlying reasons for the lack of extra functionality in older wireless communication devices. is there. In addition, it was not practical to add extra functionality beyond the baseline of the communication function to a device that was already larger than desired because it was before the current advancement in device miniaturization. It was the situation.

  The ability of the network was also a situation that had to be taken into account to include extra functionality in the device. Early wireless communication networks provided traditional circuit-switched voice and fax services, but provided few other functions. In that sense, implementing additional functions related to non-voice data in wireless communication devices seems to have made little sense at the time. This is because there has been no convenient method for transferring such non-voice data from the wireless communication device.

  As a result of improvements in battery technology, constant device miniaturization, and evolving data communications networks, all or most of the limitations described above are disappearing. With these types of advances, the convenience and range of use of wireless communication devices has been expanded, and wireless communication devices are getting into our daily lives. For example, the latest cellular radiotelephone functions as a conventional voice communication device, but also provides a diverse range of additional functions. Among these functions are portable digital assistant functions (so-called “smartphones”), music management functions including search, storage and playback, and robust data including web browsing, email and text message processing. Service functions are included.

  Improved user interface, increased battery capacity and improved access to a diverse range of data communication networks all contribute to the expanding role and flexibility of wireless communication devices. With this increased flexibility, there will be new opportunities to incorporate additional, unconventional features into wireless communication devices. In particular, the present invention achieves a significant synergistic effect through the incorporation of unconventional functions that, for example, gain convenience from the robust user interface of current wireless communication devices or supplement the data transmission function of such devices. It becomes possible.

  In one embodiment of the apparatus and method presented herein, a wireless communication device generates a ranging signal and generates a distance measurement signal by detecting a corresponding reflected signal (ranging) And one or more processing circuits for processing the distance measurement signal and outputting corresponding distance measurement information via the wireless communication device. Without limiting embodiments, the wireless communication device may include a cellular radiotelephone, a pager, a laptop or palmtop computer, or other type of mobile communication terminal.

  In at least one embodiment, the wireless communication device outputs an audible signal in response to distance measurement information obtained from a distance meter as part of its processing operation. For example, the wireless communication device can output a dial tone or pulse that is modulated according to the distance measurement. Similarly, the wireless communication device can be configured to output a vibrating signal, in which case the amplitude and / or frequency of the vibration will be determined according to the distance measurement information. In any case, using this output signal, for example, information on the approach of the subject to the visually impaired can be provided.

  In these and other embodiments, distance measurement information may be output to the display screen of the wireless communication device as part of the processing of the wireless communication device. In this case, the wireless communication device provides the user of the device with a displayed distance reading that can be controlled or accessed through the software menu of the device, for example. In addition to or in addition to the above, the wireless communication device may transmit distance information obtained from the distance meter via a communication circuit included in the wireless communication device.

  Regardless of the control as described above, the wireless communication device can preferably include a camera and the rangefinder can be positioned in alignment with the camera. For example, in at least one such embodiment, the camera comprises a lens disposed in or on the housing of the wireless communication device. The distance meter includes a distance sensor arranged in a straight line with the lens in or on the casing. Furthermore, in at least one embodiment, the camera lens and the distance sensor are both placed in a protective recess in the device housing. Optionally, the camera and rangefinder may be activated by manually or electronically opening the protective cover in the recess.

  By positioning the distance meter and the camera in alignment, the wireless communication device may process distance measurement information from the distance meter in conjunction with processing of digital image data from the camera. For example, the wireless communication device may store the digital image data from the camera and the distance measurement information from the distance meter in association with each other in the memory of the wireless communication device. The additional or alternative wireless communication device may transmit the digital image data and the distance measurement information in association with a supported wireless communication network using the cellular communication interface of the apparatus.

  Of course, the present invention is not limited to the above functions and advantages. Those skilled in the art will recognize additional features and advantages with reference to the following detailed description and the accompanying drawings.

  FIG. 1 is a partial block diagram of a wireless communication device 10 that includes one or more processing circuits 12 and a rangefinder 14. The distance meter includes a sensor circuit 16 and a distance sensor 18. The distance sensor 18 may comprise an emitter (light emitting part) / sensor (light receiving part) combination using an infrared or laser or an ultrasonic transducer, or other type of distance measuring sensor. The sensor circuit 16 may provide appropriate control signals and bias signals as necessary.

  Regardless of the implementation details, the rangefinder 14 generates a distance measurement signal by emitting a distance measurement signal and then detecting a corresponding reflected signal returning from a nearby (local) subject 20. Furthermore, the one or more processing circuits 12 process the distance measurement signal and output corresponding distance measurement information via the wireless communication device 10.

  The term “wireless communication device” as used herein should be interpreted in a broad sense. Without limiting the embodiment, the wireless communication device 10 shown in FIG. 1 can be a mobile radiotelephone such as a portable handset or other mobile terminal, a wireless pager, a wireless personal digital assistant (PDA), a laptop or palmtop. A type of computer or another type of communication device may be provided. Regardless of the above, incorporating rangefinder 14 into wireless communication device 10 will provide a number of advantages, which are described with reference to FIG.

  FIG. 2 is a block diagram illustrating additional details regarding one embodiment of the wireless communication device 10. In this embodiment, the wireless communication device 10 includes a baseband / system control circuit 30, a cellular communication circuit 32, a reception / transmission antenna 34 connected to the cellular communication circuit 32, and an input / output (I / O) interface. Various user interface elements including a circuit 38, a microphone 40, a speaker 42, a display screen (display device) 44, a keypad 46, a vibrator 48, and a camera 50 are provided. Of course, it should be understood that one or more of the exemplary user interface elements may be omitted from the wireless communication device 10 as needed or desired.

  In operation, the wireless communication device 10 communicates wirelessly with a supported wireless communication network 36. In some embodiments, the wireless communication device 10 may transmit distance measurement information to the wireless communication network 36 (or to a system accessible through the network 36). As such, the processing circuit 12 (single or multiple) may be connected to or included in the baseband / system control circuit 30 so that the distance measurement information is formatted and the cellular communication It is transmitted via the circuit 32.

  However, regardless of whether distance measurement information is transmitted from the wireless communication device 10, the incorporation of the distance meter 14 provides a plurality of synergistic functions that supplement the basic operation of the wireless communication terminal 10. For example, FIGS. 3 and 4 show a flip phone configuration of the wireless communication device 10. In this configuration, the camera lens 52 and the distance sensor 18 are disposed in or on the housing 54 of the wireless communication device 10.

  In particular, FIG. 4 shows an advantageous configuration in which the distance meter 14 is arranged in alignment with the camera 50. With such a configuration, the user of the camera 50 can acquire a relative distance measurement value for a subject imaged by the camera 50 (in a still image or a moving image). Such alignment (arranged by aligning the positions) is realized by aligning the axis of the distance meter of the distance sensor 18 and the optical axis of the lens 52 of the camera. Note that the wireless communication device 10 may include software. This software allows a user using the software to conveniently access and control the operation of such a distance meter in conjunction with camera function control.

  FIG. 5 is a diagram illustrating an alternative configuration of the wireless communication device 10. The housing 54 is configured as a non-flip housing. More importantly, however, the housing 54 includes a protected recess 56 in which both the camera lens 52 and the distance sensor 18 are set. The movable cover 58 (such as a shutter) can protect the recess 56. Preferably, the wireless communication device 10 can be configured such that the distance meter 14 and / or the camera 50 can be activated in response to the opening of the cover 58.

  FIG. 6 is a diagram illustrating a processing flow as an example of a synergistic effect obtained by including the distance meter 14 in an embodiment in which the camera of the wireless communication device 10 can be used. In this processing flow, the ranging function complements the imaging function of the camera. The process flow begins with the wireless communication device enabling the camera 50 and rangefinder 14 (step 100). Subsequently, in the processing flow, the wireless communication device 10 acquires distance measurement information from the distance meter 14 in cooperation with subject imaging via the camera 50 (step 102). The wireless communication device 10 then stores and / or transmits the associated distance data and digital image data (step 104).

  Therefore, the wireless communication device 10 stores the associated digital image data acquired from the camera 50 and the information obtained from the distance meter 14 in the memory of the wireless communication device 10 in cooperation (linkage). Such a memory may be included in one or more processing circuits 12 or baseband / system control circuit 30, or connected to one or more processing circuits 12 or baseband / system control circuit 30. Also good.

  The additional or alternative wireless communication device 10 may transmit the associated distance measurement information and digital image data to the wireless communication network 36 or to a system accessible via the wireless communication network 36. For example, the wireless communication device 10 may include a software application that obtains digital image data and associated distance measurement information and transmits the collected data to the information control circuit 30. The bundling of distance information and associated digital image data can be performed by or supported by the wireless communication device 10 such as accident investigation, surveying, site inspection and building inspection. It is possible to facilitate multiple application tasks that can be performed.

  In at least some embodiments, the camera 50 provides video recording capability to the wireless communication device 10, which is enhanced by the capabilities of the rangefinder. For example, the wireless communication device 10 can provide a “live” video image on the display screen 42 of the wireless communication device 10 based on digital image data provided by the camera 50. In this regard, the wireless communication device 10 may overlay distance information on the video image. That is, the wireless communication device 10 may display distance information related to distance measurement performed by the distance meter 14 on one or more subjects within the current field of view of the camera.

  This distance information is “live” in that the distance information dynamically updates as the user pans the camera 50 or the subject (object) moves within the field of view of the camera. It can be information. At least one embodiment of the wireless communication device 10 is configured to enhance the functionality of the wireless communication device 10 by providing live distance measurements and correlating other device functions with the live distance measurements. The For example, a wireless communication device may include a stopwatch and / or other timekeeping functions that are activated and deactivated in response to live distance measurements.

  More specifically, the wireless communication device 10 allows the user to trigger a timer start by programming a timer stop distance in response to movement detection (ie, detecting a changed distance of the subject). Good. Using this configuration, the user can point the camera 50 toward a predetermined subject (for example, a runner), and the timer of the apparatus responds to the movement of the subject away from the wireless communication device 10. It starts and stops in response to the subject reaching the programmed timer stop distance.

  Of course, those skilled in the art will readily recognize that the above example is just one of many possibilities, even if the camera 50 does not support full motion video. However, it will be further understood that such functionality can be implemented to a satisfactory level. For example, it is possible to provide “live” distance measurements based on a camera 50 that captures successive images at reasonably short intervals.

  Therefore, although the video function is desirable, the ability to support dynamically changing distance information on the display unit 42 of the wireless communication device 10 supports either the camera 50 or the wireless communication device 10. It should be understood that this is not a requirement. In general, the subject is “imaged” by the camera 50 whether or not such imaging requires a single still image recording, a series of such image recordings, or a video recording. The In all such cases, the wireless communication device 10 may display distance information about the imaged subject and / or activate other device functions based on such image information.

  In general, when the distance meter 14 is positioned in alignment with the camera 50 of the wireless communication device 10, the processing circuit (s) 12 of the apparatus dynamically adjusts for subject distances that vary within the camera's field of view. The updated distance information can be held. More specifically, the wireless communication device 10 may display dynamically updated distance information along with the display of image data obtained from the camera 50 on the display screen 44 and / or remotely. Dynamically changing distance measurement information may be transmitted for local use or recording.

  It is possible to enhance the functionality of various other types of software applications by including a ranging function with or without the camera 50. For example, the processing circuit 12 (single or plural) holds the distance measurement information that is dynamically updated, and controls the function of the wireless communication device 10 according to the distance measurement information that is dynamically updated. Good. The above functions (single or multiple) are measured by an elapsed timer function in which a timer is started / stopped in response to a change in measured distance, an audible alarm function in which an alarm is activated in response to a change in measured distance, A communication function for starting transmission of communication to the outside (for example, up to a desired number) in response to a change in the distance and a display update function for displaying the measured change in the distance on the display screen 44 may be included.

  According to another example, the function of the game application can be enhanced by the distance meter. In particular, the distance meter can enhance the functionality of a type of collaborative online game that is supported via a data communication network accessible from the wireless communication device 10. While not limiting the present invention, such embodiments include team-based play where the relative position of the players is important, and distances to / from various landmarks, etc. Scavenger hunt or “orienteering” games that are directed at

  Importantly, distance meter extensions can be added to existing devices, whether for gaming, surveying or other purposes. For example, FIG. 7 is a diagram illustrating still another embodiment of the wireless communication device 10. In the present embodiment, the distance meter 14 is configured as a detachable module that is detachably connected to the housing 54. Apart from the above, the distance meter 14 may be detachably connected to the housing 54 at another position such as the top of the housing 54 relative to the display screen 44. It should be noted that the wireless communication device 10 can be configured to redirect the display information in a direction that compensates for the reading of distance information that occurs while the distance meter 14 is pointing.

  Therefore, in the case of the configuration shown in FIG. 8 in which the distance meter 14 is directed outward from the bottom of the housing 54, the user points the distance sensor away from his / her body and reads the distance measurement information on the display screen 44 as it is. The wireless communication device 10 may reverse the direction of the distance measurement information on the display screen 44 so that the distance measurement information can be displayed.

  Regardless of whether the distance meter 14 is integrated or configured as a detachable element, the processing flow of FIG. 9 is a diagram illustrating the top level processing for one or more processing circuits 12. The process flow begins with the step (s) in which the processing circuit (s) 12 obtains distance measurements from the distance meter 14 (step 106). For example, the processing circuit (s) 12 may send a trigger signal or start signal to the distance meter 14 and receive an elapsed time measurement in response. Alternatively, it is conceivable to receive a start / stop timing signal as a response. In the latter case, the processing circuit (s) 12 processes the start / stop time information to calculate the distance. The processing circuit 12 may then provide unit conversion functions (such as feet, meters, etc.) as needed or desired. Such activation and processing can be executed continuously.

  Subsequently, in the processing flow, the processing circuit 12 causes the wireless communication device 10 to display the distance measurement information and / or stores the distance measurement information in the memory of the wireless communication device 10 (step 108). The support software included in the wireless communication device 10 may be simple or complex. For example, the wireless communication device 10 may simply display individual distance measurements or may display an associated set of distance measurements. As an example of the latter case, the wireless communication device 10 displays a collection of related distance measurements that define a room or define the relative position of a particular group of subjects. .

  Thus, as those skilled in the art will appreciate, the rich user interface features commonly found in wireless communication devices, such as mobile handsets, allow for relatively advanced distance measurement capabilities. For example, the “handyman's” application may store the wireless communication device 10 to function as a robust digital tape measure that stores and retrieves a set of distance measurements associated with a particular space. Software for programming the program may be included. Further, the extended functionality may utilize the graphic capabilities of the display screen 44 of the wireless communication device, such as by graphing the perimeter or boundary corresponding to the collected distance measurements.

  Of course, those skilled in the art will recognize additional features and advantages. The present invention is not limited by the above description and the accompanying drawings. Indeed, the invention is limited only by the following claims and the equivalents thereof.

FIG. 3 is a partial block diagram of a wireless communication device including a distance meter that provides distance measurement information for a local subject. FIG. 2 is a more detailed block diagram for one embodiment of the wireless communication device shown in FIG. 1. FIG. 2 is a perspective view of a flip configuration for the wireless communication device shown in FIG. 1. FIG. 4 is a side view of the wireless communication device shown in FIG. 3 in an open position. FIG. 2 is a perspective view of a non-flip configuration of the wireless communication device shown in FIG. 1. 3 is a flowchart illustrating an embodiment of a distance measurement process that can be executed by the wireless communication device illustrated in FIG. 1. It is a perspective view of the radio | wireless communication device shown in FIG. 1 comprised as a unit which can attach or detach a distance meter. It is a perspective view from the other direction of the mobile terminal structure shown in FIG. 6 is a flowchart showing another embodiment of a distance measurement process that can be executed by the wireless communication device shown in FIG. 1.

Claims (33)

A wireless communication device (10) comprising:
A distance meter (14) that generates a distance measurement signal by emitting a distance measurement signal and detecting a corresponding reflected signal;
One or more processing circuits (12) that process the distance measurement signal and output corresponding distance measurement information via the wireless communication device. The wireless communication device (10) further comprises a camera (50),
The distance meter (14)
The camera (50) of claim 1, wherein the camera (50) is aligned with the camera (50) so that a user obtains a distance measurement for a subject imaged by the camera (50). A wireless communication device (10). The camera (50)
A lens (52) disposed in the housing (54) of the wireless communication device (10) or on the housing (54) of the wireless communication device (10);
The distance meter (14)
The distance sensor (18) arranged in a line with the lens (52) in the housing (54) or on the housing (54). A wireless communication device (10). The lens (52) of the camera and the distance sensor (18)
The wireless communication device (10) according to claim 3, wherein the wireless communication device (10) is arranged together in a protected recess (56) of the housing. The one or more processing circuits (12) are:
The wireless communication device (10) according to claim 1, characterized by processing distance measurement information from the rangefinder (14) together with digital image data from a camera (50) of the wireless communication device. The one or more processing circuits (12) are:
The wireless communication device by storing distance measurement information from the distance meter (14) in a memory (12) of the wireless communication device (10) along with associated digital image data from the camera (50) 6. The wireless communication device (10) according to claim 5, wherein the distance measurement information from the rangefinder (14) is processed together with the digital image data from the camera (50) of (10). The one or more processing circuits (12) are:
The wireless communication device (10) according to claim 5, wherein the distance measurement information is transmitted to a supporting wireless communication network together with the associated digital image data. The one or more processing circuits (12) are:
2. The corresponding distance measurement information is output via the wireless communication device (10) by transmitting distance measurement information to a supported wireless communication network (36). A wireless communication device (10). A user interface (40, 42, 44, 46, 48, 50),
The one or more processing circuits (12) are:
Outputting the corresponding distance measurement information via the wireless communication device (10) by outputting the distance measurement information via the user interface (40, 42, 44, 46, 48, 50). A wireless communication device (10) according to claim 1, characterized in that The user interface (40, 42, 44, 46, 48, 50) includes a display screen (44);
The one or more processing circuits (12) are:
The wireless communication device (10) according to claim 9, wherein the distance measurement information is output on the display screen (44). The user interface (40, 42, 44, 46, 48, 50) includes an audio output device (42);
The one or more processing circuits (12) are:
The wireless communication device (10) according to claim 9, wherein the distance measurement information is output via the voice output device (42). The one or more processing circuits (12) are:
Wireless communication according to claim 1, characterized in that the distance measurement information is output as a beep or pulse perceived by hearing from the wireless communication device (1) modulated according to the measured distance. Device (10). The one or more processing circuits (12) are:
The wireless communication device (10) according to claim 1, wherein the distance measurement information is output as an oscillating pulse from the wireless communication device (10) that is modulated according to the measured distance. The distance meter (14)
The wireless communication device (10) of claim 1, further comprising a removable module associated with the wireless communication device (10). The distance meter (14)
Aligned with the camera (50) of the wireless communication device (10);
The one or more processing circuits (12) are:
The wireless communication device (10) of claim 1, wherein the wireless communication device (10) retains dynamically updated distance information regarding the distance of a subject that changes within the field of view of the camera. The one or more processing circuits (12) are:
16. Wireless according to claim 15, characterized in that the dynamically updated distance information is displayed on a display screen (44) of the wireless communication device (10) together with image data from the camera (50). Communication device (10). The one or more processing circuits (12) are:
The distance measurement information that is dynamically updated is held, and the function of the wireless communication device (10) is controlled in accordance with the dynamically updated distance measurement information. Wireless communication device (10).   The function is at least one of an elapsed timer function, an audible alarm function, a communication function, and a display update function, and distance measurement information displayed on the display screen (44) of the wireless communication device (10) The wireless communication device (10) according to claim 17, characterized in that is updated. A method for incorporating a distance measuring function into a wireless communication device (10), comprising:
Including a distance meter (14) in the wireless communication device (10);
Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14). Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14),
The method of claim 19, comprising configuring the wireless communication device (10) to output an audible signal in response to the distance measurement information. Configuring the wireless communication device (10) to output an audible signal in response to the distance measurement information,
21. The method of claim 20, comprising configuring the wireless communication device (10) to output an audible dial tone or pulse that is modulated in response to the distance measurement information. Configuring the wireless communication device (10) to output an audible signal in response to the distance measurement information,
The method of claim 20, comprising configuring the wireless communication device (10) to output synthesized speech corresponding to the distance measurement information. Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14),
21. A method according to claim 20, comprising configuring the wireless communication device (10) to output oscillating pulses in response to the distance measurement information. Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14),
The method of claim 19, comprising configuring the wireless communication device to display the distance measurement information on a display screen (44) of the wireless communication device (10). Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14),
20. The step of configuring the wireless communication device (10) to transmit the distance measurement information via a communication circuit (32) included in the wireless communication device (10). The method described in 1. Aligning the distance meter (14) with a camera (50) included in the wireless communication device (10);
20. The method of claim 19, further comprising: configuring the wireless communication device (10) to obtain distance measurements for a subject imaged by the camera (50). Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14),
27. Configuring the wireless communication device (10) to process distance measurement information from the rangefinder (14) along with digital image data from the camera (50). The method described. The step of configuring the wireless communication device (10) to process distance measurement information from the rangefinder (14) along with digital image data from the camera (50) comprises:
The wireless communication to store distance measurement information from the distance meter (14) in a memory (12) of the wireless communication device (10) along with associated digital image data from the camera (50). 28. A method according to claim 27, comprising the step of configuring the device (10). The step of configuring the wireless communication device (10) to process distance measurement information from the rangefinder (14) along with digital image data from the camera (50) comprises:
Configuring the wireless communication device (10) to transmit the distance measurement information to a supporting wireless communication network (36) along with the associated digital image data. 28. The method according to 27. The distance meter (14) is aligned with the camera (50) of the wireless communication device (10),
Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14),
20. The wireless communication device (10) comprising the step of configuring the wireless communication device (10) to maintain dynamically updated distance information regarding the distance of a subject that varies within the field of view of the camera. the method of. The step of configuring the wireless communication device (10) to maintain dynamically updated distance information regarding the distance of a subject that varies within the field of view of the camera comprises:
The wireless communication device (10) is configured to display the dynamically updated distance information together with the image data from the camera (50) on the display screen (44) of the wireless communication device (10). The method of claim 30, comprising steps. Configuring the wireless communication device (10) to process distance measurement information determined from the rangefinder (14),
The wireless communication device (10) so as to hold dynamically updated distance measurement information and to control the function of the wireless communication device (10) according to the dynamically updated distance measurement information. 20. The method of claim 19, comprising the step of: Configuring the wireless communication device (10) to control functions of the wireless communication device (10) in response to the dynamically updated distance measurement information,
Configuring the wireless communication device (10) to control at least one of an elapsed timer function, an audible alarm function, a communication function, and a display update function, the display of the wireless communication device (10) The method according to claim 32, characterized in that the distance measurement information displayed on the screen (44) is updated.

Images